ELECTRONIC-STRUCTURE AND UNIMOLECULAR REACTIONS OF CYCLOPROPENONE CARBONYL OXIDE - A THEORETICAL-STUDY

A theoretical investigation on the lowest singlet and triplet potentia l energy surfaces of cyclopropenone carbonyl oxide 1 is presented. The calculated equilibrium geometry and dipole moment suggest that 1 poss esses a strong zwitterionic character. The energy barrier for the isom erization of 1 to the cyclic isomer dioxirane 2 is computed to be 9.4 kcal/mol. The singlet state of 1 dissociates into cyclopropenone and e xcited singlet oxygen atom (D-1), while the triplet state of 1 dissoci ates yielding oxygen atom in its ground state (P-3). The dissociation process is endothermic for the singlet state but highly exothermic for the triplet.